In-situ near-field optics in a TEM to explore novel functions in nanospacePhysics of Lattice Defects Division Y. Ohno, I. Yonenaga, T. Taishi
( )
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[Rev.Sci.Instrum.66(1995)4866] 3 (
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STM
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ZnO [1]
ZnO
3.4eV 2.5 eV
2.5 eV 3.4 2.5
= 0.9 eV
ZnO
0.3 0.05 eV
3.100 3.345 eV
[2] 3.100 eV
; (a)
2.25, (b) 2.36, (c) 2.48, (d) 2.61, (e) 2.76, (f) 2.92 eV (g)
; [1210] ( ), [1120] ( ),
[2110] ( ) (h) (a)
[3, 4]
1 [4] [2]
1) In-situ analysis of optoelectronic properties of dislocations in ZnO by TEM observations,
Y. Ohno, T. Taishi, and I. Yonenaga, physica status solidi (a) 206 (2009) 1904-1911.
2) Optical properties of dislocations in wurtzite ZnO single-crystals introduced at elevated temperatures,
Y. Ohno, H. Koizumi, T. Taishi, K. Fujii, H. Goto, T. Yao, and I. Yonenaga, Journal of Applied Physycs 104
(2008) 073515/1-6.
3) Transformation of a SiC nanowire into a carbon nanotube,
H. Kohno, Y. Mori, S. Ichikawa, Y. Ohno, I. Yonenaga, and S. Takeda, Nanoscale 1 (2009) 344-346.
4) Converting an insulating silicon nanochain to a conducting carbon nanotube by electric breakdown,
T. Nogami, Y. Ohno, S. Ichikawa, and H. Kohno, Nanotechnology 20 (2009) 335602/1-5.
4.
Met.Mat.Trans.A
, J.Appl.Phys.
Control of nanocrystallite growth in fused silica in high-temperature radiation
environment
T. Shikama, S. Nagata and B. Tsuchiya
Nuclear Materials Science
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ity(a
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ary
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Wavelengths(nm)Wavelengths(nm)